Hydraulic cylinder 140x35 VVP00 price 120 euros

Hydraulic Cylinder 140x35 VVP00

General Description

The 140x35 VVP00 hydraulic cylinder is a fundamental component used in many industrial applications to convert hydraulic energy into mechanical force. These cylinders are designed to withstand high loads and provide smooth, reliable operation.

Construction and Materials

• Body Material : High strength steel, often heat treated to improve hardness and durability.
• Bore : 140 mm
• Stroke : 35 mm
• Stem : Chromed steel to resist wear and corrosion.
• Seals : Nitrile rubber or elastomer, designed to prevent fluid leaks and ensure trouble-free operation.

Measurements and Specifications

• Cylinder Diameter (Bore) : 140 mm
• Cylinder stroke : 35 mm
• Rod Diameter : Generally smaller than the cylinder diameter, specified by the manufacturer.
• Maximum Working Pressure : Model specific, but can vary from 1000 to 2500 bar.
• Cylinder Volume : Can be calculated using the formula for the volume of a cylinder: V=π×(D2)2×HV = \pi \times \left(\frac{D}{2}\right)^2 \times H $V$ $=$ $\pi$ $\times$ $($ 2 D ​) 2 $\times$ $H$ , where DD $D$ is the diameter and HH $H$ is the stroke.

Mechanical Characteristics

• Thrust Force : Calculated using the formula F=P×AF = P \times A $F$ $=$ $P$ $\times$ $A$ , where PP $P$ is the pressure and AA $A$ is the cross-sectional area of ​​the cylinder ( A=π×(D2) 2A = \pi \times \left(\frac{D}{2}\right)^2 $A$ $=$ $\pi$ $\times$ $($ 2 D ​) 2 ).
• Extension/Reentry Speed : Depends on the flow rate of the fluid and the flow resistance.
• Life Cycles : Based on use and maintenance, generally designed for high endurance cycles.

Mathematical Formulas for Characteristics

1. Force Calculation : F=P×AF = P \times A $F$ $=$ $P$ $\times$ $A$ Where:

   • FF $F$ = Strength
   • PP $P$ = Pressure (bar or MPa)
   • AA $A$ = Cross-sectional area of ​​the cylinder ( π×(D2)2\pi \times \left(\frac{D}{2}\right)^2 $\pi$ $\times$ $($ 2 D ​) 2 )

2. Cylinder Volume : V=π×(D2)2×HV = \pi \times \left(\frac{D}{2}\right)^2 \times H $V$ $=$ $\pi$ $\times$ $($ 2 D ​) 2 $\times$ $H$ Where:

   • VV $V$ = Volume
   • DD $D$ = Cylinder diameter
   • HH $H$ = Running

Sectors of Use

• Manufacturing Industry : To operate machines and presses.
• Automotive : Used in lifting and transmission systems.
• Agriculture : In tractors and agricultural equipment.
• Construction : In heavy machinery and construction equipment.

Brand and Manufacturer

• Brand : VVP00 (hypothetical example; the actual brand may be different).
• Manufacturer's Description : VVP00 is a hydraulic component manufacturer known for producing high performance hydraulic cylinders. Specializing in precision technology, VVP00 offers products designed to ensure reliability and durability even in the most demanding conditions.

Advantages of Purchasing in Stock

• Immediate Availability : Allows you to reduce downtime and start production quickly.
• Competitive Prices : Buying in stock often allows you to obtain more favorable prices.
• Reliability and Quality Control : The products in stock are generally subjected to rigorous quality controls.

Calculation of Power at Different Pressures

Let's assume that the maximum working pressure is 2000 bar. The maximum force generated by the cylinder can be calculated as follows:

1. Area Calculation : A=π×(1402)2=π×702=15,400 mm2A = \pi \times \left(\frac{140}{2}\right)^2 = \pi \times 70^2 = 15,400 \text{ mm}^2 $A$ $=$ $\pi$ $\times$ $($ 2 140 ​) 2 $=$ $\pi$ $\times$ $7$ $0$ 2 $=$ $15$ $,$ $400$ $\text{mm}$ 2

2. Force at 2000 bar : F=2000 bar×15,400 mm2=30,800,000 N (Newton)F = 2000 \text{ bar} \times 15,400 \text{ mm}^2 = 30,800,000 \text{ N} \text{ (Newton)} $F$ $=$ $2000$ $\text{bar}$ $\times$ $\mathrm{15,400}$ $mm$ 2 $=$ $\mathrm{30,800,000}$ $N$ $\text{(}$ $Newton$ $)$​​​​

   Converting Newtons to tons: F=30,800,0009,806.65≈3,140 tonsF = \frac{30,800,000}{9,806.65} \approx 3,140 \text{ tons} $F$ $=$ 9 , 806.65 30 , 800 , 000 ​≈ $3$ $,$ $140$ $\text{tons}$

These calculations are indicative and depend on actual cylinder specifications and operating conditions.